Muhammad Nurdin scite author profile

Empty fruit bunch was considered as substrate for second generation of bioethanol because it consists of lignin, cellulose, and hemicelluloses. For lignocelluloses materials, it usually needs pretreatment and hydrolysis to convert cellulose into glucose. Two methods of enzymatic hydrolysis, Separated Hydrolysis and Fermentation (SHF) and Simultaneous Saccharification and Fermentation (SSF) were carried out in this study. The performance of both SHF and SSF was concerned to evaluate the effect of hydrolysis methods and enzyme concentration for producing ethanol. Pretreatment was conducted in a reactor using 10% sodium hydroxide at temperature 150°C during 30 minutes. Two kinds of enzyme, Cellic® CTec2 and Cellic® HTec2 from novozyme were added in 15% (gr/ml) of pretreated EFB at pH 4.8. Four concentration of enzyme Cellic® CTec2, 10, 20, 30, 40 FPU per gram biomass were performed in SHF and SSF processes respectively, while Cellic® HTec2 was added 20% from Cellic® CTec2. Contents of glucose, xylose, and ethanol were recorded every 24 hours. Using 40 FPU of concentration enzyme, it could be produce 4.74% of ethanol in 72 hours fermentation by SHF process and 6.05% of ethanol in 24 hours by SSF process. From this study, the SSF method was considered as a better process than SHF due to rapidly ethanol production and the highest concentration of produced ethanol.

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Preparation and Characterization of Activated Carbon from Coconut Shell - Doped Tio2 in Water Solution

Maulidiyah¹,

Wibowo²,

Hikmawati³

et al. 2015

Orient. J. Chem

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Antioxidant activity-guided isolation of usnic acid and diffractaic acid compounds from lichen genus Usnea sp.

Maulidiyah¹,

Darmawan²,

Erviana³

et al. 2020

J Appl Pharm Sci

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Optimization of Saccharification and Fermentation Process in Bioethanol Production from Oil Palm Fronds

et al. 2015

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Decolorization of Black Liquor Wastewater Generated from Bioethanol Process by Using Oil Palm Empty Fruit Bunches

et al. 2015

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Bioethanol from oil palm empty fruit bunches as a second-generation bioethanol (bioethanol G2) has been developed. It produces high amounts of black liquor wastewater which also contains alkaline solution (NaOH). Black liquor wastewater is harmful to aquatic ecosystems if discharge directly into waters. This study aimed to determine decolorization of black liquor wastewater by using chemical and biological methods. Coagulation-flocculation method by using Poly Aluminium Chloride (PAC) and alumwith different ratio was also investigated. This study also identified the ability of white-rot fungi to decolorize black liquor wastewater on agar and liquid medium.The results showed that black liquor wastewater with initial concentration 30,000 ppm can be decolorized by using two methods, coagulation-flocculation and decolorization by white-rot fungi.The optimum condition to obtain 96% decolorization was using concentration coagulant 1% combination alum-PAC 3:1 with total retention time 33 minutes.Out of the three fungi studied, Trametes versicolor U97 showed the most degraded fungus onagar medium containing black liquor. In liquid medium, the percentage of decolorization ranged from 70% to 89% at 30 days depending on the fungal strain.

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Muhammad Nurdin

Comparison of SHF and SSF Processes Using Enzyme and Dry Yeast for Optimization of Bioethanol Production from Empty Fruit Bunch

Preparation and Characterization of Activated Carbon from Coconut Shell - Doped Tio2 in Water Solution

Antioxidant activity-guided isolation of usnic acid and diffractaic acid compounds from lichen genus Usnea sp.

Optimization of Saccharification and Fermentation Process in Bioethanol Production from Oil Palm Fronds

Decolorization of Black Liquor Wastewater Generated from Bioethanol Process by Using Oil Palm Empty Fruit Bunches

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